FIGURE Typical rear-wheel-drive powertrain arrangement

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Presentation transcript:

FIGURE 32. 1 Typical rear-wheel-drive powertrain arrangement FIGURE 32.1 Typical rear-wheel-drive powertrain arrangement. The engine is mounted longitudinal (lengthwise).

FIGURE 32. 2 Typical front-wheel-drive powertrain arrangement FIGURE 32.2 Typical front-wheel-drive powertrain arrangement. The engine is usually mounted transversely (sideways).

FIGURE 32. 3 Typical driveshaft (also called a propeller shaft) FIGURE 32.3 Typical driveshaft (also called a propeller shaft). The drivershaft transfers engine power from the transmission to the differential.

FIGURE 32.4 This driveshaft was found to be dented during a visual inspection and has to be replaced.

FIGURE 32.5 A center support bearing is used on many vehicles with long two-part driveshafts.

FIGURE 32.6 Some driveshafts use rubber between an inner and outer housing to absorb vibrations and shocks to the driveline.

FIGURE 32.7 A simple universal joint (U-joint).

FIGURE 32.8 How the speed difference on the output of a typical U-joint varies with the speed and the angle of the U-joint.

FIGURE 32.9 The joint angle is the difference between the angles of the joint.

FIGURE 32.10 The angle of this rear Cardan U-joint is noticeable.

FIGURE 32.11 A double-Cardan U-joint.

FIGURE 32.12 A constant velocity (CV) joint can operate at high angles without a change in velocity (speed) because the joint design results in equal angles between input and output.

FIGURE 32. 13 A Rzeppa fixed joint FIGURE 32.13 A Rzeppa fixed joint. This type of CV joint is commonly used at the wheel side of the drive axle shaft.

FIGURE 32.14 The protective CV joint boot has been torn away on this vehicle and all of the grease has been thrown outward onto the brake and suspension parts.

FIGURE 32. 15 A tripod fixed joint FIGURE 32.15 A tripod fixed joint. This type of joint is found on some Japanese vehicles. If the joint wears out, it is to be replaced with an entire drive axle shaft assembly.

FIGURE 32.16 The fixed outer joint is required to move in all directions because the wheels must turn for steering as well as move up and down during suspension movement.

FIGURE 32.17 Unequal-length driveshafts result in unequal drive axle shaft angles to the front drive wheels.

FIGURE 32.18 A typical drive axle shaft with dampener weight.

FIGURE 32.19 A tripod joint is also called a tripot, tripode, or tulip design.

FIGURE 32.20 A cross-groove plunge joint is used on many German front-wheel-drive vehicles and as both inner and outer joints on the rear of vehicles that use an independent-type rear suspension.

FIGURE 32.21 Double-offset ball-type plunge joint.

FIGURE 32.22 Getting the correct boot kit or parts from the parts store is more difficult on many Chrysler front-wheel-drive vehicles because Chrysler has used four different manufacturers for its axle shaft assemblies.

FIGURE 32.23 Many CV joints are close to the exhaust system where they are exposed to higher than normal temperatures.